CN209065424U - A kind of carbonization of graphite guide hotting mask and graphitization continuous process system - Google Patents
A kind of carbonization of graphite guide hotting mask and graphitization continuous process system Download PDFInfo
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- CN209065424U CN209065424U CN201821351103.2U CN201821351103U CN209065424U CN 209065424 U CN209065424 U CN 209065424U CN 201821351103 U CN201821351103 U CN 201821351103U CN 209065424 U CN209065424 U CN 209065424U
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- hotting mask
- graphite guide
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Abstract
The utility model discloses a kind of carbonizations of graphite guide hotting mask and graphitization continuous process system, since the graphite guide hotting mask carbonization in the utility model is connected with graphitization continuous process system carbonization cabin with graphitization cabin by transfer chamber, it can be directly pushed under the action of propulsive mechanism after carbonization treatment in graphitization cabin and carry out graphitization processing, compared with prior art, centre is handled without cooling, the time is greatly saved, improves the production efficiency of graphite guide hotting mask.In addition, converter, shove charge operation also avoids the generation of web breakage phenomenon during executing aforesaid operations, ensure that the final product quality of graphite guide hotting mask due to not needing to come out of the stove.
Description
Technical field
The utility model relates to graphite guide hotting mask processing technique fields, more specifically to a kind of graphite guide hotting mask carbon
Change and be graphitized continuous process system.
Background technique
Graphite guide hotting mask is a kind of novel heat-conducting heat sink material, by PI film by chemical method through high temperature cabonization and graphitization
It is made after processing.
In graphite guide hotting mask production process, PI film coiled material carries out carburizing reagent processing first in carbide furnace, then turns
It is sent in graphitizing furnace and carries out graphitization reaction treatment.Since carbonization heating is generally at 1000 DEG C or more, terminate in carbonization heating
After need to be cooled to 100 DEG C or less just come out of the stove and be transferred in graphitizing furnace.And temperature-fall period just needs more than ten hour time,
PI film coiled material is also relatively more in carbide furnace out, transhipment, graphitizing furnace loading furnace process time-consuming, leads to artificial synthesized graphite film production effect
Rate is low.
In addition, manual operation of the PI film coiled material in carbide furnace out, transhipment, graphitizing furnace loading furnace process will also result in coiled material
There is breakage, influences the final product quality of graphite guide hotting mask.
Therefore, the production efficiency for how improving graphite guide hotting mask becomes those skilled in the art's technology urgently to be resolved and asks
Topic.
Utility model content
In view of this, technical problem to be solved in the utility model is how to improve the production efficiency of graphite guide hotting mask,
For this purpose, the utility model provides a kind of carbonization of graphite guide hotting mask and graphitization continuous process system.
To achieve the above object, the utility model provides the following technical solutions:
A kind of carbonization of graphite guide hotting mask and graphitization continuous process system, comprising:
Shell, the enclosure interior, which is disposed with, to be able to carry out the carbonization cabin of carburizing reagent, is able to carry out graphitization instead
The graphitization cabin answered and transfer chamber;
To the vacuum device in the carbonization cabin and the graphitization cabin vacuumize process;
The transfer chamber is set for completely cutting off the sealing isolation mechanism for sealing the carbonization cabin and the graphitization cabin;
Positioned at the enclosure interior, and the carrying transfer device of part to be processed can be carried;And
One end of the shell is set, and the carrying transfer device can be pushed into graphitization cabin from carbonization cabin
Propulsive mechanism.
Preferably, it is carbonized and is graphitized in continuous process system in above-mentioned graphite guide hotting mask, the carbonization cabin includes carbonization
Heating room, the heating room door matched with carbonization heating room and the heat preservation being arranged between the carbonization heating room and shell
Layer, first fire door of the heating room door close to the shell.
Preferably, it is carbonized and is graphitized in continuous process system in above-mentioned graphite guide hotting mask, the graphitization cabin includes stone
Inkization crucible, the crucible cover matched with the graphitization crucible and the induction coil being arranged on the graphitization crucible,
Second fire door of the crucible cover close to the shell.
Preferably, it is carbonized and is graphitized in continuous process system in above-mentioned graphite guide hotting mask, the sealing completely cuts off mechanism packet
The first gate valve and the second gate valve are included, first gate valve can close the carbonization cabin close to the one of the transfer chamber
End, second gate valve can close the graphitization cabin close to one end of the transfer chamber.
Preferably, it is carbonized and is graphitized in continuous process system in above-mentioned graphite guide hotting mask, sealing isolation mechanism is also
Including the third gate valve being arranged between first gate valve and second gate valve.
Preferably, it is carbonized and is graphitized in continuous process system, the carbonization cabin, the graphite in above-mentioned graphite guide hotting mask
Change cabin and the bottom surface of the transfer chamber are in same level.
Preferably, it is carbonized and is graphitized in continuous process system in above-mentioned graphite guide hotting mask, the carrying transfer device is
Graphite trolley.
Preferably, it is carbonized and is graphitized in continuous process system in above-mentioned graphite guide hotting mask, the propulsive mechanism is pneumatic
Mandril.
It can be seen from the above technical scheme that being carbonized and being graphitized using the graphite guide hotting mask of the utility model and is continuous raw
When production system, part to be processed is placed on the carrying transfer device for being located at carbonization cabin;The closing of sealing isolation mechanism
The carbonization cabin carries out carbonization treatment to the part to be processed after vacuumize process;After carbonization treatment, to the graphitization
Cabin is vacuum-treated;Sealing isolation mechanism is opened, and the propulsive mechanism will carry the carrying transfer device of part to be processed
It is pushed into the graphitization cabin;Sealing isolation mechanism closes the graphitization cabin, carries out graphite to the part to be processed
Change processing;Go out cabin after graphitization processing.Due to the carbonization of graphite guide hotting mask and graphitization continuous production in the utility model
System carbonization cabin is connected with graphitization cabin by transfer chamber, can be directly pushed under the action of propulsive mechanism after carbonization treatment
Graphitization carries out graphitization processing in cabin, and compared with prior art, centre is handled without cooling, and the time is greatly saved, and improves
The production efficiency of graphite guide hotting mask.In addition, converter, shove charge operation also avoids above-mentioned in execution due to not needing to come out of the stove
The generation of web breakage phenomenon in operating process, ensure that the final product quality of graphite guide hotting mask.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor
Under, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is a kind of graphite guide hotting mask carbonization provided by the utility model embodiment and is graphitized continuous process system
Structural schematic diagram;
Wherein, 100 be shell, 101 be the first fire door, 102 be the second fire door, 200 be carbonization cabin, 201 carbonization heating rooms,
202 it is insulating layer, 203 be heating room door, 300 be graphitization cabin, 301 be graphitization crucible, 302 be crucible cover, 303 is induction
Coil, 400 be sealing isolation mechanism, 401 be the first gate valve, 402 be the second gate valve, 403 be third gate valve, 500 be
Carrying transfer device, 600 are propulsive mechanism.
Specific embodiment
For this purpose, the core of the utility model is to provide a kind of graphite guide hotting mask carbonization and graphitization continuous process system,
To improve the production efficiency of graphite guide hotting mask.
In addition, embodiments illustrated below does not play any restriction effect to utility model content documented by claim.
In addition, the full content of composition represented by following example is not limited to the solution as utility model documented by claim
Necessary to scheme.
Referring to Fig. 1, the carbonization of graphite guide hotting mask disclosed in the utility model embodiment and graphitization continuous process system,
Include:
Shell 100 is disposed with inside shell 100 and is able to carry out the carbonization cabin 200 of carburizing reagent, is able to carry out graphite
Change graphitization cabin 300 and the transfer chamber of reaction;
To the vacuum device in carbonization cabin 200 and graphitization 300 vacuumize process of cabin;
Transfer chamber is set and completely cuts off mechanism 400 for completely cutting off sealing carbonization cabin 200 and being graphitized the sealing in cabin 300;
Inside shell 100, and the carrying transfer device 500 of part to be processed can be carried;And
One end of shell 100 is set, and carrying transfer device 500 can be pushed into graphitization cabin from carbonization cabin 200
300 propulsive mechanism 600.
When being carbonized using the graphite guide hotting mask of the utility model and be graphitized continuous process system, part to be processed is placed on
On the carrying transfer device 500 in carbonization cabin 200;It seals and completely cuts off the closing carbonization of mechanism 400 cabin 200, it is right after vacuumize process
Part to be processed carries out carbonization treatment;After carbonization treatment, graphitization cabin 300 is vacuum-treated;Sealing isolation mechanism 400 opens
It opens, the carrying transfer device 500 for carrying part to be processed is pushed into graphitization cabin 300 by propulsive mechanism 600;Sealing isolation mechanism
400 closing graphitization cabins 300, treat handling member and carry out graphitization processing;Go out cabin after graphitization processing.
Due to the carbonization of graphite guide hotting mask and graphitization continuous process system carbonization cabin 200 and graphitization in the utility model
Cabin 300 is connected by transfer chamber, can directly be pushed into graphitization cabin 300 after carbonization treatment under the action of propulsive mechanism 600
Middle carry out graphitization processing, compared with prior art, centre are handled without cooling, and the time is greatly saved, improves graphite guide
The production efficiency of hotting mask.
In addition, converter, shove charge operation saves the time for executing aforesaid operations, into one accordingly due to not needing to come out of the stove
The production efficiency for improving graphite guide hotting mask of step.
Simultaneously as not needing to come out of the stove, converter, shove charge operation also avoids coiled material during executing aforesaid operations
The generation of disrepair phenomenon ensure that the final product quality of graphite guide hotting mask.
It should be noted that technological principle and the existing skill of the carbonization treatment in the cabin 200 that is carbonized in the utility model embodiment
Art is identical, and the technological principle for being graphitized the graphitization processing in cabin 300 is same as the prior art, and core improvement is, by carbon
Change cabin 200 and graphitization cabin 300 to be attached by transfer chamber, and isolation mechanism 400 is sealed to realize carbonization cabin by setting
200 and graphitization cabin 300 it is independent sealed.The effect of vacuum device take out to carbonization cabin 200 and graphitization cabin 300 true
Idle job.The effect of propulsive mechanism 600 is pushed into the part to be processed after carbonization treatment in graphitization cabin 300
A kind of structure in cabin 200 that is carbonized simply is described in the utility model embodiment, which includes that carbonization adds
Hot cell 201, the heating room door 203 matched with carbonization heating room 201 and setting are being carbonized between heating room 201 and shell 100
Insulating layer 202, heating room door 203 close to shell 100 the first fire door 101.When carburizing reagent, the first fire door is successively opened
101 and heating room door 203, by part to be processed be placed on carrying transfer device 500 on, sealing isolation mechanism 400 closing carbonization cabin
200, vacuum device carries out vacuumize process to carbonization cabin 200, and the cabin 200 that is finally carbonized treats handling member and carries out carbonization treatment,
A kind of structure for being graphitized cabin 300 is simply described in the utility model embodiment, which includes stone
Inkization crucible 301, the crucible cover 302 matched with graphitization crucible 301 and the induction being arranged on graphitization crucible 301
Coil 303, second fire door 102 of the crucible cover 302 close to shell 100.After carbonization treatment vacuum device to graphitization cabin 300 into
Row vacuumize process, then sealing isolation mechanism 400 is opened, and propulsive mechanism 600 is pushed into graphitization for transfer device 500 is carried
In cabin 300, sealing isolation mechanism 400 closing graphitization cabin 300 carries out graphitization processing, after the completion of processing, opens crucible cover
302 and second fire door 102, the part to be processed that takes out that treated.
There are many kinds of the structures that above-mentioned realization carbonization cabin 200 and graphitization cabin 300 seal, and has in the utility model embodiment
Body describes one of which, specifically, sealing isolation mechanism 400 includes the first gate valve 401 and the second gate valve 402, the
One gate valve 401 can close carbonization cabin 200 close to one end of transfer chamber, and the second gate valve 402 can close graphitization cabin 300
Close to one end of transfer chamber.
In order to improve sealing reliability, sealing isolation mechanism 400 further includes that setting is inserted in the first gate valve 401 and second
Third gate valve 403 between plate valve 402.
Further, in order to enable carrying transfer device 500 smoothly can enter graphite through transfer chamber from carbonization cabin 200
Change in cabin 300, the bottom surface in carbonization cabin 200, graphitization cabin 300 and transfer chamber is in same level.
The carrying transfer device 500 has the characteristics such as high temperature resistant, it is preferred that carrying transfer device 500 is graphite trolley.
In order to realize the automatic processing of whole system, propulsive mechanism 600 is Pneumatic top bar.
The invention also discloses a kind of carbonizations of graphite guide hotting mask and graphitization continuous producing method, using such as above-mentioned
One graphite guide hotting mask carbonization and graphitization continuous process system, method include:
Part to be processed is placed on the carrying transfer device 500 for being located at carbonization cabin 200;
Sealing isolation mechanism 400 closes carbonization cabin 200, treats handling member after vacuumize process and carries out carbonization treatment;
After carbonization treatment, graphitization cabin 300 is vacuum-treated;
Sealing isolation mechanism 400 is opened, and the carrying transfer device 500 for carrying part to be processed is pushed by propulsive mechanism 600
It is graphitized in cabin 300;
Sealing isolation mechanism 400 closing graphitization cabin 300, treats handling member and carries out graphitization processing;
Go out cabin after graphitization processing.
The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new
Type.Various modifications to these embodiments will be readily apparent to those skilled in the art, and determine herein
The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause
This, the present invention will not be limited to the embodiments shown herein, and is to fit to and principles disclosed herein
The widest scope consistent with features of novelty.
Claims (8)
1. a kind of graphite guide hotting mask carbonization and graphitization continuous process system characterized by comprising
Shell, the enclosure interior, which is disposed with, to be able to carry out the carbonization cabin of carburizing reagent, is able to carry out graphitization reaction
It is graphitized cabin and transfer chamber;
To the vacuum device in the carbonization cabin and the graphitization cabin vacuumize process;
The transfer chamber is set for completely cutting off the sealing isolation mechanism for sealing the carbonization cabin and the graphitization cabin;
Positioned at the enclosure interior, and the carrying transfer device of part to be processed can be carried;And
One end of the shell is set, and the carrying transfer device can be pushed into the propulsion in graphitization cabin from carbonization cabin
Mechanism.
2. graphite guide hotting mask carbonization as described in claim 1 and graphitization continuous process system, which is characterized in that the carbonization
Cabin includes that carbonization heats room, the heating room door matched with carbonization heating room and setting in carbonization heating room and shell
Between insulating layer, it is described heating room door close to the shell the first fire door.
3. graphite guide hotting mask carbonization as claimed in claim 2 and graphitization continuous process system, which is characterized in that the graphite
Changing cabin includes being graphitized crucible, the crucible cover matched with the graphitization crucible and being arranged on the graphitization crucible
Induction coil, second fire door of the crucible cover close to the shell.
4. graphite guide hotting mask carbonization as described in claim 1 and graphitization continuous process system, which is characterized in that the sealing
Completely cutting off mechanism includes the first gate valve and the second gate valve, and first gate valve can close the carbonization cabin close to the mistake
The one end in cabin is crossed, second gate valve can close the graphitization cabin close to one end of the transfer chamber.
5. graphite guide hotting mask carbonization as claimed in claim 4 and graphitization continuous process system, which is characterized in that the sealing
Completely cutting off mechanism further includes the third gate valve being arranged between first gate valve and second gate valve.
6. the carbonization of graphite guide hotting mask and graphitization continuous process system, feature as described in any one of claims 1 to 5 exist
In the bottom surface in the carbonization cabin, the graphitization cabin and the transfer chamber is in same level.
7. the carbonization of graphite guide hotting mask and graphitization continuous process system, feature as described in any one of claims 1 to 5 exist
In the carrying transfer device is graphite trolley.
8. the carbonization of graphite guide hotting mask and graphitization continuous process system, feature as described in any one of claims 1 to 5 exist
In the propulsive mechanism is Pneumatic top bar.
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CN201821351103.2U CN209065424U (en) | 2018-08-21 | 2018-08-21 | A kind of carbonization of graphite guide hotting mask and graphitization continuous process system |
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CN201821351103.2U CN209065424U (en) | 2018-08-21 | 2018-08-21 | A kind of carbonization of graphite guide hotting mask and graphitization continuous process system |
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ID=67090698
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